CN106436240A - Clothes treating apparatus - Google Patents

Abstract

A clothes treating apparatus (100) includes: a heat pump cycle (140) having an evaporator (141), a compressor (143), a condenser (142) and an expansion valve (144), and configured to apply heat to air which circulates a clothes accommodation unit (110); a water cover (150) configured to support the evaporator (141) and the condenser (142) on an upper surface thereof, and having therein a condensate water collection unit (157, 158); and a condensate water separating unit (160) protruding from the water cover (150) to a space between the evaporator (141) and the condenser (142), and configured to prevent scattering of condensate water to the condenser (142) from the evaporator (141) due to an air flow.

Description

Device for clothing processing

Technical field

The present invention relates to be prevented from dispersing of condensed water and make the device for clothing processing reducing minimum of drying property.

Background technology

Generally, device for clothing processing is for performing the function carrying out washing or be dried the clothing completing washing to clothing Or the device that above two function is all able to carry out.

Further, developing recently and there is steam raising plant and there is the removal fold of clothing etc., de-taste, go to destatic Device for clothing processing Deng clearing function or sterilizing function.

For example, develop the clothing completing washing is dried roller dryer, hang clothing enter clothing Cabinet type dryer that row is dried and by clearing up the cleaning plant etc. of clothing to clothing supply hot blast.

In above-mentioned device for clothing processing, cleaning plant or dryer etc. have thermal source supply unit, with carrying out air Heating, and supply hot blast to clothing.Such thermal source supply unit has：Fuel gas buring is made to heat air by thermal source Gas fired heater；Electric heater air being heated by resistance；Utilization make cold-producing medium to compressor, condenser, The heat pump etc. that air is heated by the heat pump of expansion valve and evaporimeter circulation, is developing energy efficiency recently Excellent heat pump.

The cloth drying machine with heat pump makes the sky of the high temperature and humidity discharged from clothing resettlement section as such in cylinder Gas passes through evaporimeter and condenser, absorbs heat from the air of high temperature and humidity, to again will be to clothing resettlement section leaked-in air Heating such that it is able to improve energy efficiency.

On the other hand, apply the cloth drying machine of heat pump or wash dual-purpose dryer perhaps to improve heat pump system System performance and need high air quantity.

For example, with improving the rotating speed of blowing fan, increase the circulation rate of the air discharged from cylinder, carry to heat pump For high air quantity.Evaporimeter absorbs more heat from the air of the high air quantity discharged by cylinder, and condenser is to the air of high air quantity Discharge more heat, the hot blast of high air quantity is thus provided to cylinder.During thus, it is possible to improve the performance of dryer and be dried Between.

But, constitute the evaporimeter of heat pump and condenser separate certain intervals and is configured inside heat-exchanger cover, In the case that the air discharged from cylinder passes through evaporimeter with high air quantity, by the surface tension of water self and by air stream The raw shear stress of movable property, the condensed water producing at evaporimeter may disperse from the rear end of evaporimeter to the front end of condenser.By This, can reduce the temperature of condenser, thus there is the problem that drying property declines.

Prior art literature

Patent document

Patent document 1D1：Korean granted patent KR10-1121152 (authorizes) on 02 21st, 2012

Content of the invention

Therefore, it is an object of the invention to provide a kind of device for clothing processing, above-mentioned device for clothing processing has needs height The heat pump of air quantity, is prevented from the condensed water of evaporimeter by the surface tension of water self and by air flowing generation Shear stress and disperse from evaporimeter to condenser.

The purpose of the present invention can realize by condensed water trap portion, and above-mentioned condensed water trap portion is with to evaporimeter and condensation Mode prominent between device is arranged, thus the condensed water that trapping may be dispersed from above-mentioned evaporimeter to condenser.

The device for clothing processing of the present invention includes：Heat pump, has evaporimeter, compressor, condenser and expansion valve, right To the air heating of clothing resettlement section circulation；Retaining cover, installs above-mentioned evaporimeter and condenser in upper side, with above-mentioned air Carry out heat exchange, there is in inside water condensate storage space；And condensed water trap portion, with from above-mentioned retaining cover to above-mentioned evaporation The prominent mode in space between device and condenser is formed, and is used for preventing condensed water because air flowing from above-mentioned evaporimeter to cold Condenser disperses.

A case according to the present invention, above-mentioned condensed water trap portion can include：Trapping main body, with condensation water collection portion even Connect；Inflow entrance, is formed at the front aspect of above-mentioned trapping main body, makes from the condensed water of above-mentioned evaporimeter generation and by above-mentioned evaporation The part inflow of the air of device；And air outflow port, make by above-mentioned inflow entrance leaked-in air to above-mentioned trapping main body Outflow outside.

Thus, the air flowing of horizontal direction can be formed in trapping body interior by inflow entrance and air outflow port, Condensed water can be guided to flow into trapping body interior by the air flowing of trapping body interior.

A case according to the present invention, above-mentioned air outflow port can form at least one in the upper side of above-mentioned trapping main body Above.

Thus, speed air flow can be regulated according to the size of air outflow port and quantity.

A case according to the present invention, above-mentioned air outflow port can be with the upper side in above-mentioned trapping main body towards above-mentioned cold The mode that condenser is amesiality is formed.

Thus, the shearing force being produced by air flowing can be increased, thus guide more air and condensed water to trapping Body interior flows into.

A case according to the present invention, above-mentioned inflow entrance can by with the rear end of above-mentioned evaporimeter in opposite directions in the way of formed.

Thus, the inflow entrance trapping main body can cover the rear end lower of the evaporimeter that condensed water disperses.

A case according to the present invention, above-mentioned trapping main body can include for cold with what condensation water collection portion was connected in bottom Solidifying water interconnecting part.

Thus, trapping and the collection of condensed water can be carried out simultaneously.

A case according to the present invention, it may be that above-mentioned retaining cover includes：First installation portion, is used for installing above-mentioned evaporimeter； And second installation portion, it is used for installing above-mentioned condenser, above-mentioned condensed water trap portion is configured at above-mentioned first installation portion and second Between installation portion.

A case according to the present invention, above-mentioned condensation water collection portion can be respectively formed in the inside and second of the first installation portion The inside of installation portion.

A case according to the present invention, above-mentioned condensed water trap portion can along cross the first installation portion and the second installation portion it Between direction formed longlyer.

A case according to the present invention, the condensed water being collected in above-mentioned condensation water collection portion can be by discharge pipe to outer row Go out.

A case according to the present invention, above-mentioned inflow entrance and air outflow port can be along being mutually perpendicular to or orthogonal direction shape Become.

Thus, in trapping body interior, air-flow direction is formed as the air-flow direction phase with trapping body exterior With, air and condensed moisture from direction can be naturally formed as along gravity direction by natural force.

According to the present invention constructed as disclosed above, can effectively to retaining cover collective low condense in evaporimeter cold Solidifying water, can be improved the performance of cloth drying machine by preventing condensed water from dispersing to condenser and shorten the clothes drying time.

Brief description

Fig. 1 is for illustrating the sketch of the structure of the device for clothing processing with heat pump of the present invention briefly.

Fig. 2 is the stereogram of the retaining cover with condensed water trap portion of the present invention.

Fig. 3 partial enlarged drawing obtained from the condensed water trap portion from unilateral observation Fig. 2.

Fig. 4 is the side view of Fig. 2.

Fig. 5 is the sketch of the condensed water sputtering prevention method that the present invention is described.

For amplifying, Fig. 6 illustrates that the condensed water sputtering of Fig. 5 prevents the sectional view of structure.

Detailed description of the invention

Hereinafter, referring to the drawings, the device for clothing processing of the present invention is explained in more detail.In this manual, in difference In embodiment, the same or similar reference to same or similar structure mark, and replace to it with explanation first Explanation.As long as not explicitly indicating that on context, then the expression of the odd number that this specification is used includes the expression of plural number.

Present invention can be suitably applied to cloth drying machine or washing dual-purpose dryer, the steam supply dress including that there is functions/drying Put and there is the device for clothing processing of clearing function and sterilizing function.Further, could be applicable to roller dryer and cabinet type baking Dry machine.

Fig. 1 is the sketch of the structure of the device for clothing processing 100 with heat pump 140 schematically illustrating the present invention.

Device for clothing processing 100 shown in Fig. 1 illustrates roller dryer, and device for clothing processing 100 may be configured as including Casing, clothing resettlement section, drive division, blowing fan 130 and heat pump 140.

Casing forms profile and the main body of product.At casing internal, there is clothing resettlement section 110, can be used for housing clothing. Clothing resettlement section 110 can include：Outer barrel (tub), is arranged at the inside of casing；And cylinder, arrange in the way of can rotating Inside in outer barrel.Can be at the internal reservoir washings of outer barrel.

In the case of the cloth drying machine of drum-type, casing internal is provided with cylinder 110, and houses clothing.Cylinder 110 can be to carry out centered on the rotary shaft at horizontal direction or the rear being configured at outer barrel in the way of certain angle tilts Rotate.

Cylinder 110, in hollow drum, provides and puts into as the clothing being dried object the collecting sky being dried Between.Front aspect at cylinder 110 is formed with opening portion, and the front aspect at casing is formed with input port, opening portion and input port phase Intercommunicated, thus clothing can be put into the inside of cylinder 110.In order to carry out opening and closing to input port, door is arranged at hinge arrangement The front aspect of casing.

In order to effectively be dried to as the clothing being dried object, cylinder 110 is arranged in the way of can rotating.? The inside of cylinder 110 has lift (lifter), and the clothing as washing object can rise to the upper of cylinder by lift After portion, decline to the bottom of cylinder by gravity, thus overturn (Tumbling).

Drive division utilizes motor etc. to provide revolving force, may be disposed at the rear of outer barrel.The rotary shaft of motor and cylinder 110 Rear portion connect, the revolving force of motor transmits to cylinder 110, thus cylinder 110 can be made to rotate.

Air flow circuit is connected with cylinder 110, can form the closed loop of the circulation for air.For example, air flow circuit can be by Air duct 120 is formed.Front lower portion at cylinder 110 forms the outlet of the cylinder 110 for discharging air, at cylinder 110 The back side form the entrance of cylinder 110 for flowing into air, air duct 120 connects with the exit and entrance of cylinder 110, from And the circulation of bootable air.

The position that arranges of blowing fan 130 can be for extending from the outlet of cylinder 110 to the evaporimeter 141 of heat pump 140 Air duct 120 or from the condenser 142 of heat pump 140 to the entrance of cylinder 110 extend air duct 120 in Portion.Blowing fan 130 can be driven by other blowing fan motor, the inside bypassing air through cylinder 110 to air applying power, The air discharged from cylinder 110 is made again to circulate to cylinder 110.

Outlet at cylinder 110 is provided with cotton linters filter, as the air discharged from cylinder 110 is filtered by velveteen Device, can trap the velveteen comprising in air.

Clothing (also referred to as " treating washing ") makes moisture evaporate by the hot blast supplying to the inside of cylinder 110, by rolling The air of cylinder 110 is discharged from cylinder 110 with the state comprising from the moisture of clothing evaporation.The high temperature and humidity that cylinder 110 is discharged After air moves and receives from heat pump 140 heat and is heated along air flow circuit, circulate to cylinder 110.

Heat pump 140 includes evaporimeter the 141st, compressor the 143rd, condenser 142 and expansion valve 144.Heat pump 140 can Use cold-producing medium as working fluid.Cold-producing medium moves along refrigerant piping 145, and refrigerant piping 145 forms and is used for making system The closed loop of refrigerant cycle.Evaporimeter the 141st, compressor the 143rd, condenser 142 and expansion valve 144 are connected by refrigerant piping 145, Cold-producing medium passes sequentially through evaporimeter the 141st, compressor the 143rd, condenser 142 and expansion valve 144.

Evaporimeter 141 being arranged at the inside of air duct 120 in the way of the outlet of cylinder 110 so that from Air and cold-producing medium that the outlet of cylinder 110 is discharged carry out heat exchange, thus reclaim the heat of the air discharged from cylinder 110, Rather than it is outside discarded to dryer.

Condenser 142 connects with the entrance with cylinder 110 and separates along air moving direction with above-mentioned evaporimeter 141 Mode is arranged at the inside of above-mentioned air duct 120, makes the air by evaporimeter 141 and cold-producing medium carry out heat exchange, thus The heat making cold-producing medium discharges to the air of cylinder 110 to be flowed into.

Evaporimeter 141 and condenser 142 may be disposed at the inside of air duct 120.Evaporimeter 141 can be with cylinder 110 Outlet connects, and condenser 142 can be connected with the entrance of cylinder 110.

Evaporimeter 141 and condenser 142 can be fin tubing heat exchanger (fin＆tube type).Fin tubular type is The fin of plate morphology is attached to the form of hollow pipe.Cold-producing medium flows along pipe interior, and air is through pipeline external face simultaneously Carry out heat exchange with cold-producing medium.Fin is for extending the heat exchange area between air and cold-producing medium.

Higher than the temperature of the cold-producing medium of evaporimeter 141 from the temperature of the air of the high temperature and humidity of cylinder 110 discharge, therefore, With discharging by evaporimeter 141 and by the heat of air to the cold-producing medium of evaporimeter 141, above-mentioned air is condensed, and produces Condensed water.Thus, the air of high temperature and humidity is dehumidified (removal moisture) by evaporimeter 141, and the condensed water being condensed can be by arranging Discharge to outside after the condensation water collection portion of the bottom of evaporimeter 141 is collected.With regard to the collection of condensed water and discharge Illustrate preventing structure to be explained in more detail when illustrating to condensed water sputtering.

In evaporimeter 141, the thermal source of the air of heat absorption moves to condenser 142 with cold-producing medium for medium, in order to from evaporation Device 141, to condenser 142 moving heat source, arranges compressor 143 between evaporimeter 141 and condenser 142.

Compressor 143 is arranged at the refrigerant piping 145 extending from evaporimeter 141 to condenser 142, by compression from steaming The cold-producing medium sending out device 141 evaporation forms the cold-producing medium of high temp/high pressure, and the cold-producing medium of high temp/high pressure is along refrigerant piping 145 Move to condenser 142.In order to control the discharge rate of cold-producing medium, compressor 143 can be the frequency conversion compression that can change frequency Machine 143.

Expansion valve 144 is arranged at the refrigerant piping 145 extending from condenser 142 to evaporimeter 141, makes at condenser The cold-producing medium being condensed in 142 expands and becomes the cold-producing medium of low temperature/low pressure, and transmits to evaporimeter 141.

During the mobile route of the cold-producing medium observing structure as above, cold-producing medium flows to compressor 143 with gaseous state Entering, and the compression by compressor 143 becoming the cold-producing medium of high temp/high pressure, the cold-producing medium of high temp/high pressure flows to condenser 142 Enter, and as to air release heat, cold-producing medium becomes liquid condition from gaseous state in condenser 142.

Then, the cold-producing medium of liquid condition flows into expansion valve 144, thus (or includes capillary by expansion valve 144 Deng) pull effect (wire drawing effect) become the cold-producing medium of low temperature/low pressure, the aqueous cold-producing medium of low temperature/low pressure Flow into evaporimeter 141, thus with absorbing heat from air in evaporimeter 141, make cold-producing medium flash to gas from liquid condition Body state.

As described above, heat pump 140 makes cold-producing medium along the 144 → evaporation of compressor 143 → condenser, 142 → expansion valve Device 141 iterative cycles, provides thermal source to the air circulating to cylinder 110.

The present invention provide can prevent from evaporimeter 141 produce condensed water by high air quantity to condenser 142 disperse cold Solidifying water trap portion 160.

Fig. 2 is the stereogram of the retaining cover 150 with condensed water trap portion 160 of the present invention.Fig. 3 is for from unilateral observation figure The partial enlarged drawing of condensed water trap portion obtained from 2.Fig. 4 is the side view of Fig. 2.

Retaining cover 150 is arranged at base top.Fastener hole 153 can separate certain intervals and be formed at the limit of retaining cover 150 Edge, fastens to retaining cover 150 and base by such as the retention mechanisms such as bolt.Retaining cover 150 is arranged at heat-exchanger cover Bottom, is configured at the evaporimeter 141 within heat-exchanger cover in a spaced manner and condenser 142 is respectively arranged in retaining cover The upper side side of 150 and opposite side.

There is in the side of retaining cover 150 first installation portion 151, evaporimeter 141 can be installed.At another of retaining cover 150 Side has the second installation portion 152, can install condenser 142.

Upper side at the first installation portion 151 forms multiple condensation flow hand-hole 154 in the way of through, thus from evaporation The condensed water that device 141 produces moves from the face of facing toward, top of evaporimeter 141 and flows into condensation flow hand-hole 154.

In the first condensation water collection portion 157 that is internally formed of the first installation portion 151, thus can temporarily store and pass through condensed water The condensed water that ostium 154 flows into.In order to farthest guarantee the collection space of condensed water, the first condensation water collection portion 157 The major part of the entire area of the first installation portion 151 can be occupied.

In the front upper end of the first installation portion 151, header board 155 is formed in the way of extending downwards, thus can make first The volumetric spaces in condensation water collection portion 157 maintains certain depth.

In the bottom surface of the second installation portion 152, supporting part 159 highlights downwards, thus can support the second installation portion 152, and The volumetric spaces making the second condensation water collection portion 158 maintains certain depth.Supporting part 159 has hollow bulb in inside, by Supporting part 159 is internal inserts projection, thus base and the second installation portion 152 can be made to combine.

In the second condensation water collection portion 158 that is internally formed of the second installation portion 152, the second condensation water collection portion 158 and One condensation water collection portion 157 is interconnected, thus the storage of the expansible condensed water being collected in the first condensation water collection portion 157 is empty Between.Second condensation water collection portion 158 can occupy a part for the entire area of the second installation portion 152.

Formed respectively in four corners of the upper surface of the first installation portion 151 and combine projection 156, thus evaporimeter can be made 141 and first installation portion 151 combine.Further, four corners at the upper surface of the second installation portion 152 also form respectively to combine and dash forward Play 156, thus condenser 142 and the second installation portion 152 can be made to combine.

Condensed water trap portion 160 can be to join in the way of prominent between the first installation portion 151 and the second installation portion 152 Put.Condensed water trap portion 160 can be to cross the first installation portion 151 and the second peace along with the direction that air moving direction intersects Mode between dress portion 152 is formed.

Condensed water trap portion 160 includes highlighting upward formation between the first installation portion 151 and the second installation portion 152 Trapping main body 161.

Above-mentioned trapping main body 161 can include upper surface portion 161b, rear face 161a and side surface part 161c.

Rear face 161a can be on the basis of the moving direction of the fluid-mixing that air and condensed water mix, with from cold The mode that the upstream side of condenser highlights upward extends.

Upper surface portion 161b can the upper end of portion 161a from behind forwards extend.

Above-mentioned side surface part 161c can connect the two sides of above-mentioned upper surface portion 161b and rear face 161a respectively.

For example, trap main body 161 height can from evaporimeter 141 rear in terms of lower end upward highlight with evaporimeter 141 With the interval between condenser 142 measures accordingly.

Trapping main body 161 includes：Upper space, is used for making air pass through in inside；And lower space, for first Condensed water is guided below the installed surface of installation portion and the second installation portion 152.

The upper space of trapping main body 161 and lower space are configured at the first condensation water collection portion 157 and the second condensed water Between collection portion 158, the upper space of above-mentioned trapping main body 161 connects with condensation water collection portion with lower space, thus is caught Collection can be collected to the first condensation water collection portion 157 and the second condensation water collection portion 158 to the condensed water within trapping main body 161. The lower space of trapping main body 161 can form condensed water interconnecting part 164.Condensed water interconnecting part 164 may be formed at ratio and installs evaporation The lower position of the installed surface of device 141 or condenser 142.

Front aspect in trapping main body 161 forms inflow entrance 162.The front aspect of trapping main body 161 refers to, with the shifting of air On the basis of dynamic direction by with the bottom, rear of evaporimeter 141 in opposite directions in the way of configure and flow into for above-mentioned air and condensed water Face.For example, inflow entrance 162 can with in the condensation flow hand-hole 154 of the first installation portion 151 be positioned at evaporimeter 141 after The mode that the condensation flow hand-hole 154 of end is adjacent configures.Thus, a part for the condensed water producing in evaporimeter 141 can be led to The inside crossing inflow entrance 162 to trapping main body 161 flows into.

Further, can be by inflow entrance 162 to the internal flow of trapping main body 161 by a part for the air of evaporimeter 141 Enter.

Upper side in trapping main body 161 forms air outflow port 163.Air outflow port 163 provides for installed surface Lower section guides the power source of condensed water.Wherein, the power that power source generates as flowing by air, refers to for less than steaming The condensed water trap portion of the bottom surface sending out device 141 or condenser 142 guides the shearing force of condensed water.Shearing force flows to air The identical direction effect in direction.

Preferably, air outflow port 163 is trapping the upper side of main body 161 with to the right, for example with air moving direction On the basis of downstream lateral deviation to mode formed.

Because if the distance that air outflow port 163 separates from inflow entrance 162 to air moving direction is too short, then cannot lead to Cross inflow entrance 162 to guarantee the air imbibed quantity of more than required level, spilling over to inflow entrance 162 can be worried on the contrary, And be it is difficult to ensure that pass through the sufficient shearing force that air flowing produces, it is possible to cannot be to the inflow entrance of trapping main body 161 162 guiding condensed waters.Therefore, in order to ensure the shearing force being produced by air flowing, the position (length of air outflow port 163 The position of direction center line) be preferably located between evaporimeter 141 and condenser 142 separated by a distance in the range of from trapping main body The position of inflow entrance 162 lie farthest away of 161.

Further, in the case of not forming air outflow port 163, with to trapping main body 161 inside upper part space (cold The upper space of the solidifying water water surface) fill air, trap pressure rising compared with the pressure in outside of the inner side of main body 161, thus Trapping main body 161 inflow entrance 162 side formed eddy current, therefore air cannot to trapping main body 161 interior side inflow, but to The outer upper of trapping main body 161 moves, as a result, the work of condensed water cannot normally be performed to guide to trapping body interior With.

Wherein, trapping the inflow entrance 162 of main body 161 and flow export 163 can along mutually orthogonal directions or orthogonal side To formation.Thus, pass through to flow into by a part for the air of evaporimeter 141 and the condensed water being condensed in evaporimeter 141 Mouthfuls 162 together flow into, and proportion and the high condensed water of density sink to the lower space of trapping main body 161, on the contrary, and proportion and density Low air is through trapping the upper space of main body 161 and being flowed into condenser 142 by air outflow port 163.

Hereinafter, if the condensed water sputtering that the present invention is explained in more detail prevents the effect of structure, as follows.

Fig. 5 is the sketch of the condensed water sputtering prevention method that the present invention is described.For amplifying, Fig. 6 illustrates that the condensed water of Fig. 5 flies Dissipate the sectional view preventing structure.

Observe when evaporimeter 141 produces the process of condensed water, along the refrigerant piping being positioned within evaporimeter 141 145 flowing cold-producing mediums and carry out heat exchange by the air of evaporimeter 141.The temperature of the cold-producing medium of evaporimeter 141 is relatively small In the temperature of air, therefore passing through temperature contrast, the outer surface at refrigerant piping 145 and fin can form condensed water water droplet.

For example, the interval between on the basis of air moving direction from the leading section of evaporimeter 141 to rearward end, condensation Surface tension between water and evaporimeter 141 surface (is made to horizontal direction relatively larger than the shearing force being produced by air flowing With), above-mentioned surface tension is more than to the gravity (to vertical direction effect) of condensed water, therefore, condensed water is along evaporimeter 141 Surface is to dirty and be collected in the first condensation water collection portion 157 by condensation flow hand-hole 154.

But, if air translational speed is accelerated by high air quantity, then the situation of the rear end of evaporimeter 141 can not With.

That is, condensed water with by surface tension and gravity to dirty, be received through that air flowing produces cuts short power Impact.

In the past, condensed water was not to the bottom dropped out of evaporimeter, but dispersed with air one condenser in the same direction, but at this In bright, condensed water is trapped by condensed water trap portion 160.

When observing the mobile route of air of the present invention, by a part for the air of evaporimeter 141, i.e. evaporimeter 141 Lower air include the part of condensed water that produces in evaporimeter 141, be mixed with the air of condensed water by means of catching Collect the shearing force of the flowing generation of the air within main body 161 and guided to the inflow entrance 162 of condensed water trap portion 160.

The air being mixed with condensed water being guided to the inflow entrance 162 of condensed water trap portion 160 is in trapping main body 161 Upper space moves along horizontal direction, and lightweight air is flowed out to the top of trapping main body 161 by air outflow port 163 And flow into condenser 142.The condensed water of Heavy Weight separates with the air moving along upper space because of difference of specific gravity, and to The condensed water interconnecting part 164 of lower space declines.

Then, to the condensation water collection of condensed water interconnecting part 164 flowing in the condensed water connecting with condensed water interconnecting part 164 Collection portion.

Collected condensed water can be discharged to outside by discharge pipe.

The one end of drainpipe is connected with condensation water collection portion or condensed water interconnecting part 164, the other end of drainpipe with Casing external connection, thus condensed water can be discharged to outside.

Therefore, according to the present invention, the condensed water being condensed in evaporimeter 141 not disperses to condenser 142, but has It is collected in effect the bottom of retaining cover 150, thus the performance of cloth drying machine can be improved, and drying time can be reduced.

Device for clothing processing 100 described above is not limited to the structures and methods of the embodiment of described above, above-mentioned The alternative entirety combining each embodiment of embodiment or a part and constitute, so that various deformation can be carried out.

Claims (20)

1. a device for clothing processing, including：

Clothing resettlement section, houses clothing in inside；

Heat pump, has evaporimeter, compressor, condenser and expansion valve, by the air circulating to above-mentioned clothes collecting appearance portion Heat exchange with cold-producing medium heats above-mentioned air；

Retaining cover, supports above-mentioned evaporimeter and condenser in mode spaced apart from each other, have at internal gathering from above-mentioned steaming Send out the condensation water collection portion of the condensed water that device produces；And

Condensed water trap portion, to form in the way of prominent between above-mentioned evaporimeter and condenser from above-mentioned retaining cover, by weight Power make in the fluid-mixing of the air flowing from above-mentioned evaporimeter to condenser and condensed water air and above-mentioned condensed moisture from And trap above-mentioned condensed water.

2. device for clothing processing according to claim 1, it is characterised in that

Above-mentioned condensed water trap portion includes the trapping main body connecting with above-mentioned condensation water collection portion, and above-mentioned trapping main body has：

Inflow entrance, is formed at the front of above-mentioned trapping main body along the direction that the fluid-mixing of above-mentioned air and condensed water is flowed into Face；And

Air outflow port, makes the air upwards side in the fluid-mixing being flowed into by above-mentioned inflow entrance flow out.

3. device for clothing processing according to claim 2, it is characterised in that

The upper side of above-mentioned trapping main body is arranged to the installed surface higher than evaporimeter and condenser, and makes to blow from above-mentioned evaporimeter Air and condensed water fluid-mixing to trapping main body interior side inflow.

4. device for clothing processing according to claim 2, it is characterised in that

Above-mentioned air outflow port forms at least more than one in the upper side of above-mentioned trapping main body.

5. device for clothing processing according to claim 2, it is characterised in that

Above-mentioned air outflow port with the front end of the upper side from above-mentioned trapping main body towards above-mentioned condenser to above-mentioned trapping main body The mode that separates of rear formed.

6. device for clothing processing according to claim 2, it is characterised in that

Above-mentioned inflow entrance is formed in the way of open towards the rearward end of above-mentioned evaporimeter.

7. device for clothing processing according to claim 2, it is characterised in that

Above-mentioned trapping main body includes the condensed water interconnecting part for being connected with condensed water trap portion in bottom.

8. device for clothing processing according to claim 1, it is characterised in that

Above-mentioned retaining cover includes：

First installation portion, installs above-mentioned evaporimeter at upper surface；And

Second installation portion, installs above-mentioned condenser at upper surface,

Above-mentioned condensed water trap portion is configured between above-mentioned first installation portion and the second installation portion.

9. device for clothing processing according to claim 8, it is characterised in that

Above-mentioned condensation water collection portion includes：

First condensation water collection portion, is formed at the inside of the first installation portion；And

Second condensation water collection portion, is formed at the inside of the second installation portion.

10. device for clothing processing according to claim 8, it is characterised in that

Above-mentioned condensed water trap portion is formed along the direction crossed between the first installation portion and the second installation portion longlyer.

11. device for clothing processing according to claim 7, it is characterised in that

The condensed water being collected in above-mentioned condensation water collection portion is discharged to outside by drainpipe.

12. device for clothing processing according to claim 2, it is characterised in that

Above-mentioned inflow entrance and air outflow port are formed along mutually perpendicularly crossed direction.

13. 1 kinds of device for clothing processing, including：

Outer barrel, is formed at the inside of casing；

Cylinder, is arranged at the inside of above-mentioned outer barrel in the way of can rotating；

Air duct, is connected in the way of connecting with above-mentioned outer barrel and cylinder, forms the stream of the circulation for air；

Blowing fan, so that the side being flowed into the inside of above-mentioned cylinder by above-mentioned air duct from the air that above-mentioned cylinder is discharged Formula blows above-mentioned air to cylinder；

Evaporimeter and condenser, to be configured at the inside of above-mentioned air duct along air moving direction mode spaced apart from each other； And

Condensed water trap portion, is arranged between above-mentioned evaporimeter and condenser, makes air and the condensation blowing from above-mentioned evaporimeter Air in the fluid-mixing of water flows to above-mentioned condenser and traps the condensed water separating with above-mentioned air.

14. device for clothing processing according to claim 13, it is characterised in that

Above-mentioned air duct includes：

Retaining cover, supports the bottom of above-mentioned evaporimeter and the bottom of above-mentioned condenser respectively, at the upper table supporting above-mentioned evaporimeter Face is formed with multiple condensation flow hand-hole；And

Condensation water collection portion, is arranged at the inside of above-mentioned retaining cover, makes to pass through above-mentioned many from the condensed water that above-mentioned evaporimeter produces Individual condensation flow hand-hole flows into and collects condensed water.

15. device for clothing processing according to claim 14, it is characterised in that

Above-mentioned condensed water trap portion includes the trapping main body being formed in the way of projecting upwards, above-mentioned trapping master from above-mentioned retaining cover Body has inflow entrance and air outflow port, above-mentioned inflow entrance along the direction that above-mentioned air blows in the front of above-mentioned trapping main body Face makes above-mentioned fluid-mixing to the interior side inflow of above-mentioned trapping main body, and above-mentioned air outflow port is from above-mentioned inflow entrance to above-mentioned trapping The rear of main body separates, and the upper side of above-mentioned trapping main body make in above-mentioned fluid-mixing with condensed moisture from air stream Go out.

16. device for clothing processing according to claim 15, it is characterised in that

Above-mentioned condensation water collection portion includes：

First condensation water collection portion, is formed at the inside of the first installation portion for installing above-mentioned evaporimeter；And

Second condensation water collection portion, is formed at the inside of the second installation portion for installing above-mentioned condenser,

Above-mentioned trapping main body has the condensation making above-mentioned first condensation water collection portion connect with the second condensation water collection portion in inner side Water interconnecting part, by gravity make in above-mentioned fluid-mixing air and condensed moisture from and received by above-mentioned condensed water interconnecting part Collect above-mentioned condensed water.

17. 1 kinds of device for clothing processing, including：

Clothing resettlement section, houses clothing, provides the receiving space for drying above-mentioned clothing by hot blast；

Air duct, forms the stream making air circulate to above-mentioned clothes collecting appearance portion；

The air discharged from above-mentioned clothing resettlement section is blowed by blowing fan to above-mentioned clothes collecting appearance portion；

Heat pump, has the evaporimeter of inside and the condenser being configured at above-mentioned air duct in mode spaced apart from each other, logical Cross the cold-producing medium making above-mentioned condenser and air carries out heat exchange, hot to provide to above-mentioned clothes collecting appearance portion leaked-in air Source；And

Condensed water trap portion, is arranged between evaporimeter and the condenser of the inside being housed in above-mentioned air duct, and trapping is passed through The air of above-mentioned evaporimeter and the cold-producing medium with above-mentioned evaporimeter carry out heat exchange and the fluid-mixing of condensed water that produces, make institute Air in the above-mentioned fluid-mixing trapping flows out to air duct, the condensed water that trapping separates from above-mentioned air.

18. device for clothing processing according to claim 17, it is characterised in that

Above-mentioned condensed water trap portion includes：

Trapping main body, has the inner space for storing above-mentioned fluid-mixing in inner side temporarily；

Inflow entrance, is formed at the front of above-mentioned trapping main body in an open-ended fashion towards the fluid-mixing blowing from above-mentioned evaporimeter Face；And

Air outflow port, on the moving direction of above-mentioned fluid-mixing above-mentioned trapping main body upper side with above-mentioned inflow entrance The mode separating is formed, and makes the air that the fluid-mixing from the inner side of above-mentioned trapping main body separates to stream above-mentioned air duct Go out.

19. device for clothing processing according to claim 18, it is characterised in that

Above-mentioned trapping main body includes：

Rear face, extends from the upstream side of condenser on the basis of the moving direction of above-mentioned fluid-mixing with projecting upwards；

Upper surface portion, forwards extends from the upper end of above-mentioned rear face；And

Side surface part, connects the two sides of above-mentioned upper surface portion and rear face respectively.

20. 1 kinds of device for clothing processing, including：

Clothing resettlement section；

The air discharged from above-mentioned clothing resettlement section is blowed by blowing fan to above-mentioned clothes collecting appearance portion；

Retaining cover, supports above-mentioned evaporimeter and condenser with above-mentioned evaporimeter and condenser state spaced apart from each other；And

Condensed water trap portion, upwardly extends from above-mentioned retaining cover and is arranged between above-mentioned evaporimeter and condenser, make mixing Fluid, after the interior side inflow of above-mentioned condensed water trap portion, makes the air in above-mentioned fluid-mixing by being arranged at above-mentioned condensation The air outflow port of the upside of water trap portion and flow out to outside, catch to the lower inside of above-mentioned condensed water trap portion by gravity Collecting the condensed water in above-mentioned fluid-mixing, above-mentioned fluid-mixing is by the cold-producing medium of above-mentioned evaporimeter and the heat exchange of air The condensed water producing and the fluid-mixing of the air through above-mentioned evaporimeter.